Precision Forging of Spiral Bevel Gears for Army Helicopters
Spiral bevel gears were specially manufactured to support advance operations of army helicopters. The program was specially originated to produce light weight forged components that reduce overall weight of army components and increase its overall life up to maximum.
TO help precision forgings manufacturer in India meet these goals, products are rigorously tested over various quality parameters during helicopter transmission using quality test stand. These spiral bevels gears are available in different designs to suit different applications and high quality raw material is used for long lasting transmission.
The expert manufacturers assure high strength design with lower noise levels and modified geometries to reduce overall transmission, noise or error etc. For this purpose, vibrant stress testing is performed at gears are tested on multiple stress level and helicopter transmissions.
Why to use spiral bevel gears?
Spiral bevel gears are extensively utilized for Army helicopters for power transfer and motion regulation through shafts that are not parallel in nature. They are also used to interconnect drive systems for mechanical connections between rotors and the engines. Surprisingly, spiral bevel gears just work amazing here. They not only control noise levels inside cabin but help in effective helicopter transmission as well. Also they are high in strength and low in weight that assure advance transmission program for clients.
This program was funded by the government with an objective to deliver low weight vehicles that would be durable and easy to operate. These gears are available in variety of configurations, different transmission concepts and airframe drive integration. The success of program became more assured by implementation of effective tools or techniques and critical manufacturing concepts.
The research center and manufacturing experts are continuously working on the program to make it just better and more effective. After repeated testing, they were able to produce such product having low noise levels and increased strength. The product has positive influence on vibration and it was the major contributor for noise reduction during motion.
The product was also able to control transmission errors and able to perform during misaligned mode. This was an appreciable achievement for both army and the precision forgings manufacturers India. The evaluation of the product is still in progress and it is expected to deliver high quality solutions in near future.